Microorganisms (Aug 2022)

Heterotrophic Cultivation of the Cyanobacterium <i>Pseudanabaena</i> sp. on Forest Biomass Hydrolysates toward Sustainable Biodiesel Production

  • Dimitra Karageorgou,
  • Alok Patel,
  • Ulrika Rova,
  • Paul Christakopoulos,
  • Petros Katapodis,
  • Leonidas Matsakas

DOI
https://doi.org/10.3390/microorganisms10091756
Journal volume & issue
Vol. 10, no. 9
p. 1756

Abstract

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Environmental pollution, greenhouse gas emissions, depletion of fossil fuels, and a growing population have sparked a search for new and renewable energy sources such as biodiesel. The use of waste or residues as substrates for microbial growth can favor the implementation of a biorefinery concept with reduced environmental footprint. Cyanobacteria constitute microorganisms with enhanced ability to use industrial effluents, wastewaters, forest residues for growth, and concomitant production of added-value compounds. In this study, a recently isolated cyanobacterium strain of Pseudanabaena sp. was cultivated on hydrolysates from pretreated forest biomass (silver birch and Norway spruce), and the production of biodiesel-grade lipids was assessed. Optimizing carbon source concentration and the (C/N) carbon-to-nitrogen ratio resulted in 66.45% w/w lipid content when microalgae were grown on glucose, compared to 62.95% and 63.79% w/w when grown on spruce and birch hydrolysate, respectively. Importantly, the lipid profile was suitable for the production of high-quality biodiesel. The present study demonstrates how this new cyanobacterial strain could be used as a biofactory, converting residual resources into green biofuel.

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